Global ETD Search

11	Analysis of anti-cancer drug penetration through multicell layers in vitro. The development and evaluation of an in vitro model for assessing the impact of convective fluid flow on drug penetration through avascular cancer tissues. Makeen, Hafiz Antar Mohammad January 2012 (has links) High interstitial fluid pressure (IFP) in tumours is recognized as a barrier to drug delivery resulting in reduced efficacy. High IFP impedes the normal process of convective fluid flow (CFF) from blood vessels into the interstitium. The aim of this study was to develop an in vitro model that could be used to measure CFF and to study its effects on drug delivery. The model consists of a transwell cell culture insert which supports the growth of multicell layers (MCL) on collagen coated membranes. A graduated tube is inserted into the transwell and a pressure gradient is applied across the membrane by raising the volume of medium in the tube above that of the bottom chamber. CFF is determined by measuring the weight of medium in the bottom chamber as a function of time. CFF was inversely proportional to MCL thickness and 41.1±3.6µm thick MCL has completely stopped CFF. Using a physiologically relevant hydrostatic pressure of 28mmHg, a CFF of 21µL/min was recorded using a DLD-1 MCL that was 12.21±3.2µm thick. Under these conditions, the rates of penetration of doxorubicin, imatinib and gefitinib were respectively 42, 26 and 13 folds greater than when no CFF exists. Reversing the CFF so that it opposed the drug diffusion gradient significantly impairs drug penetration. In conclusion, a novel in vitro model for assessing the impact of CFF on drug delivery has been developed. This model could be used to evaluate strategies designed to increase drug delivery to solid tumours by modifying the CFF. Drug penetration Drug delivery Solid tumours Multicell layer Interstitial fluid pressure Convective fluid flow Convection Hydrostatic pressure Chemotherapy resistance Cancer
12	Analysis of anti-cancer drug penetration through multicell layers in vitro : the development and evaluation of an in vitro model for assessing the impact of convective fluid flow on drug penetration through avascular cancer tissues Makeen, Hafiz Antar Mohammad January 2012 (has links) High interstitial fluid pressure (IFP) in tumours is recognized as a barrier to drug delivery resulting in reduced efficacy. High IFP impedes the normal process of convective fluid flow (CFF) from blood vessels into the interstitium. The aim of this study was to develop an in vitro model that could be used to measure CFF and to study its effects on drug delivery. The model consists of a transwell cell culture insert which supports the growth of multicell layers (MCL) on collagen coated membranes. A graduated tube is inserted into the transwell and a pressure gradient is applied across the membrane by raising the volume of medium in the tube above that of the bottom chamber. CFF is determined by measuring the weight of medium in the bottom chamber as a function of time. CFF was inversely proportional to MCL thickness and 41.1±3.6µm thick MCL has completely stopped CFF. Using a physiologically relevant hydrostatic pressure of 28mmHg, a CFF of 21µL/min was recorded using a DLD-1 MCL that was 12.21±3.2µm thick. Under these conditions, the rates of penetration of doxorubicin, imatinib and gefitinib were respectively 42, 26 and 13 folds greater than when no CFF exists. Reversing the CFF so that it opposed the drug diffusion gradient significantly impairs drug penetration. In conclusion, a novel in vitro model for assessing the impact of CFF on drug delivery has been developed. This model could be used to evaluate strategies designed to increase drug delivery to solid tumours by modifying the CFF. 616.99
13	Untersuchungen zur Chemotherapieresistenz von H8N8-Tumorzellen nach Cyclophosphamid-, Doxorubicin- und 5-Fluouraciltherapie im syngenen WAP-T-Mammakarzinom-Mausmodell / Investigations on chemotherapy resistance of H8N8 tumor cells after cyclophosphamide, doxorubicin and 5-fluorouracil therapy in the syngeneic WAP-T mammary carcinoma mouse model Reinhardt, Oliver 27 August 2019 (has links) No description available. 610 transgene Tumormäusemodelle Brustkrebs Tumorremission Tumorprogression Chemotherapie Chemotherapieresistenz transgenic tumor mouse models breast cancer tumor remission tumor progression chemotherapy chemotherapy resistance
14	Investigation of drug-induced cell cycle responses in high-risk neuroblastoma Sahi, Maryam January 2020 (has links) The childhood cancer neuroblastoma mostly affects children under the age of 2 and comprises 6% of all childhood cancers. Neuroblastoma has very diverse phenotypes caused by both inter- and intra-tumour heterogeneities. The phenotypes are classified as being either low- or high-risk. This project focuses on high-risk NB cell lines with various chemotherapy sensitivity. Titration studies with chemotherapy agents cisplatin or doxorubicin showed a proneness of p53 mutated cell lines to arrest in either the S- and/or the G2/M-phase, depending on the drug and the drug dosage, indicating on a dose-dependent cell cycle response. To potentially inhibit the cells from arresting a treatment assay with 3 cell cycle key-components, pATM, Chk1 and Wee1 inhibitors was done. An initial immunocytochemistry staining of the expression levels of pATM and Wee1 showed that pATM was upregulated for 5 out 7 tested cell lines, namely SK-N-SH, SK-N-FI, Kelly, SK-N-DZ and BE(2)-C, upon chemotherapy treatment with doxorubicin. Wee1 was however only upregulated for 3 out 7 cell lines; Kelly, SK-N-DZ and BE(2)-C. The upregulation of pATM and Wee1 showed a potential confirmation of their involvement in CT induced cell cycle arrest. Upon inhibition of pATM, Chk1 and Wee1 diverse effects were observed for each cell line (SK-N-SH, SK-N-AS, SK-N-FI, Kelly, SK-N-DZ and BE(2)-C). Wee1 showed the most promising results were the cell viability decreased for all 5 p53 mutated cell lines and the confluency over time decreased for 4 out 5 p53 mutated cell lines. The p53 wild type cell line SK-N-SH was less sensitive towards Chk1 and Wee1 inhibition indicating that cell lines with functional p53 might not be as dependent on the Chk1 and Wee1 pathways compared to cell lines with non-functional p53. Thus, targeting the cell cycle arrest might be a promising therapeutic target for high-risk neuroblastoma. / Barndomscancern neuroblastom utgör 6% av all barncancer. Majoriteten av de drabbade är under 2 år. Neuroblastom har en stor mångfald av fenotypiska utryck som orsakas av dess inter- och intra-tumör heterogenitet. Fenotyperna klassificeras antigen som låg- eller högrisk. Här har 7 högrisks-neutoblastom cellinjer med varierande grad av känslighet mot kemoterapi analyserats. Titreringsstudier med kemoterapierna cisplatin och doxorubicin påvisade en benägenhet för de p53 muterade cellinjerna att arrestera i S- och/eller i G2/M-fasen, beroende på behandlingen samt behandlingsdosen, vilket indikerar på en dos-beroende cellcykel respons. En behandlingsanalys med de 3 nyckelkomponenterna fosforylerat ATM, Chk1 samt Wee1 gjordes för att potentiellt inhibera cellerna från att arrestera. Efter en initial immunocytokemi infärgning av pATM samt Wee1 visade 5 av 7 cellinjer (SK-N-SH, SK-N-FI, Kelly, SK-N-DZ samt BE(2)-C) en uppreglering av pATM-uttryck till följd av doxorubicin behandling. Däremot var Wee1 endast uppreglerat för 3 av 7 cell linjer (Kelly, SK-N-DZ samt BE(2)-C). Uppregleringen av pATM och Wee1 påvisar ett potentiellt samband mellan kemoterapi-inducerad cellcykelarrest och ökat utryck av pATM och Wee1. Vid inhibering av pATM, Chk1 samt Wee1 gav Wee1 de mest lovande resultaten där cellviabiliteten minskade för samtliga 5 p53-muterade cellinjer och där konfluensen över tid minskade för 4 av 5 p53-muterade cellinjer. SK-N-SH med funktionerande p53 var mindre känslig gentemot Chk1 och Wee1 inhibering, vilket indikerar att cellinjer med funktionerande p53 inte är lika beroende av reaktionsvägarna för Chk1 och Wee1 jämfört med cellinjer som har icke-funktionerande p53. Därmed kan riktad behandling mot cellcykelarrest vara en lovande behandling för högrisks-neuroblastom. Neuroblastoma chemotherapy resistance cell cycle arrest cisplatin doxorubicin ATM Chk1 Wee1 Neuroblastom kemoterapiresistans cellcykelarrest cisplatin doxorubicin ATM Chk1 Wee1 Medical Biotechnology Medicinsk bioteknologi
15	Characterizing the Expression of Cytochrome P450s in Breast Cancer Cells Armstrong, Catherine 12 1900 (has links) Une résistance aux agents anticancéreux utilisés dans le traitement du cancer du sein est souvent associée à un échec de traitement. Des variations dans le devenir des agents anticancéreux dans l’organisme, sont des facteurs pouvant expliquer des phénomènes de résistance. Notre but était d’évaluer l’impact des isoenzymes du CYP450s, dans le métabolisme local des agents anticancéreux. Notre premier objectif était de valider un gène rapporteur pour nos analyses de PCR en temps réel. Pour ce faire, nous avons criblé l’expression de 6 gènes rapporteurs dans 23 lignées cellulaires. NUP-214 a été démontré comme étant le gène rapporteur le plus stable avec un écart-type de seulement 0.55 Ct. Notre deuxième objectif était de déterminer le niveau d’expression des ARNm de 19 isoformes du CYP450 dans plusieurs lignées cellulaires du cancer du sein. Les ARNm des CYP450s ont démontré une très grande variabilité entre les lignées cellulaires. Les isoformes CYP1B1 et CYP2J2 démontrent l’expression la plus importante pour la majorité des lignées. Notre troisième objectif était d’évaluer la corrélation entre l’expression des isoformes des CYP450s et leur activité métabolique en utilisant les substrats spécifiques du CYP1B1 et 2J2, 7-éthoxyrésorufine et ébastine, respectivement. Une forte corrélation (r2=0.99) fut observée entre l’activité métabolique vis-à-vis l’ébastine et l’expression du CYP2J2. De même, le métabolisme du 7-éthoxyrésorufine était fortement corrélé (r2=0.98) avec l’expression du CYP1B1. En résumé, ces résultats suggèrent que le métabolisme local des agents anticancéreux pourrait significativement moduler le devenir des agents anticancéreux dans l’organisme, et pourrait être ainsi, une source de résistance. / Several types of cancer cells have shown an innate or accute resistance to anti-cancer agents which in turn causes a failure in treatment. This resistance has been suggested to be caused by the expression of membrane transporters in cancer cells, as well as inter-individual variability in metabolism. Our interest was to evaluate the implication of CYP450 enzymes in the local metabolism of cancer cells. Our first objective was to screen the expression level of six housekeeping genes (HKG) using 23 different cell lines to determine which gene was the most stable. We found that NUP-214 was the most stable HKG across the panel of cell lines tested, with a standard deviation of only 0.55 Ct. Our second objective was to determine the expression level of 19 CYP450 mRNA isoforms in various breast cancer cell lines by RT-PCR. The CYP450 mRNAs showed a large variability between the different cell lines analyzed, where CYP1B1 and 2J2 were strongly expressed in most cell lines. Our third objective was to determine if measurable metabolic activity was present and correlates with mRNA expression in these same breast cancer cell lines using the specific substrates 7-ethoxyresorufin and ebastine for CYP1B1 and 2J2 activities, respectively. The metabolism of 7-ethoxyresorufin showed an excellent correlation of 0.98 with CYP1B1 expression while ebastine demonstrates a strong correlation (r2=0.99) with 2J2 expression. Overall, these results suggest that local metabolism of anti-cancer agents could significantly affect drug disposition and be a source of chemoresistance. Cytochromes P450 Cancer du sein Résistance aux agents anticancéreux Métabolisme Variabilité interindividuelle Cytochrome P450 Breast cancer Chemotherapy resistance Drug metabolism Intersubject variability
16	Influence de la fibrose hépatique sur le développement du carcinome hépatocellulaire Lacoste, Benoit 12 1900 (has links) Le carcinome hépatocellulaire (CHC) est un cancer au pronostic sombre, car il est souvent diagnostiqué trop tardivement pour entreprendre un traitement curatif. Il se développe dans 80-90% des cas sur fond de cirrhose. On connait mal comment la fibrose, étape préliminaire à la cirrhose, et son principal constituant, le collagène de type 1 (COL1), peuvent jouer un rôle dans le processus du CHC. Nous avons tout d’abord étudié le développement de la fibrose dans un modèle utilisant la souris nue. Nous avons déterminé qu’après 16 semaines d’administration de thioacétamide dans l’eau de boisson, il est possible d’obtenir une fibrose suffisante pour induire une hépatoprotection en présence de différents hépatotoxiques (AST dans le sérum de souris fibrotiques vs non-fibrotiques : Anti-Fas JO2 (4665 ± 2596 vs. 13953 ± 2260 U/L; P<0.05), acétaminophène (292 ± 66 vs. 4087 ± 2205 U/L; P<0.01) et CCL4 (888 ± 268 vs. 15673 ± 2782 U/L; P<0.001)). Ces résultats confirment que la présence de COL1 et de fibrose favorise la survie des hépatocytes normaux tel qu’observé précédemment au laboratoire. Par la suite, nous avons sélectionné in vivo, par injection intrasplénique de la lignée de CHC Hepa1-6, une lignée à forte tumorigénicité nommée dt-Hepa1-6 (28±12 lésions vs. 0±0 lésions à 21 jours). Cette lignée était composée d’une sous-population cellulaire arborant la protéine de surface EpCAM (34.0±0.1%). Par tri cellulaire, nous avons démontré que ces cellules étaient partiellement responsables de la tumorigénicité accrue (EpCAM + (86.7±2.3%) :1093±74 lésions vs. EpCAM- (15.3±1.0%) :473±100 lésions; P<0.01). Nous avons alors démontré que la présence de fibrose favorise le développement de la lignée dt-Hepa1-6 in vivo (604±242 vs 22±9 lésions; P<0.05). De plus, la présence de fibrose réduit l’efficacité du traitement au cisplatin in vivo (44.5±4.9 vs. 78.7±6.9%; P<0.01) confirmant les résultats obtenus in vitro (Apoptose : COL1 13.75±0.44% vs. plastique 31.45±1.37%; P<0.001). En conclusion, la présence de fibrose et de son principal constituant, le COL1, favorise la survie et la progression du CHC. / Hepatocellular carcinoma (HCC) is a dreadful pathology, often diagnosed too late to be cured. In 80-90% of cases, it arises in the context of liver cirrhosis. Little is known on the implication of liver fibrosis, one of the key elements of cirrhosis, and its major constituent, type I collagen (COL1), on the development of HCC. We first studied the development of fibrosis in a nude mouse model. We determined that, after 16 weeks of thioacetamide administration in drinking water, we obtained a sufficient degree of fibrosis to reach a hepatoprotective state when animals were exposed to different hepatotoxic agents (Serum AST of fibrotic vs non-fibrotic mice : Anti-Fas JO2 (4665 ± 2596 vs. 13953 ± 2260 U/L; P<0.05), acetaminophen (292 ± 66 vs. 4087 ± 2205 U/L; P<0.01) et CCL4 (888 ± 268 vs. 15673 ± 2782 U/L; P<0.001)). This confirmed that COL1 and the presence of fibrosis protects normal hepatocytes as observed previously in our laboratory. Next, we selected in vivo, by intrasplenic injection of the murine HCC cell line Hepa1-6, a highly tumorigenic cell line that we named dt-Hepa1-6 (28±12 lesions vs. 0±0 lesions at 21 days). This cell line was constituted of cell subsets expressing EpCAM protein at their surface (34.0±0.1%). Through cell sorting, we demonstrated that these cells were partially responsible for the enhanced tumorigenicity observed (EpCAM + (86.7±2.3%) :1093±74 lesions vs. EpCAM- (15.3±1.0%) :473±100 lesions; P<0.01). We then showed that the presence of liver fibrosis increases the development of dt-Hepa1-6 cell line in vivo (604±242 vs 22±9 lesions; P<0.05). Moreover, fibrosis reduced the anti-neoplastic efficacy of cisplatinum in vivo (44.5±4.9 vs. 78.7±6.9%; P<0.01) confirming in vitro results (Apototic index : COL1 13.75±0.44% vs. plastic 31.45±1.37%; P<0.001). In conclusion, fibrosis and its major constituent, COL1, favor the survival and progression of HCC. Carcinome hépatocellulaire Collagène de type I Fibrose hépatique MAPK EpCAM Survivine Hépatoprotection Cellule souche cancéreuse Résistance aux anti-cancéreux Hepatocellular carcinoma Type I collagen Liver fibrosis Survivin Hepatoprotection Cancer stem cell Chemotherapy resistance
17	Characterizing the Expression of Cytochrome P450s in Breast Cancer Cells Armstrong, Catherine 12 1900 (has links) Une résistance aux agents anticancéreux utilisés dans le traitement du cancer du sein est souvent associée à un échec de traitement. Des variations dans le devenir des agents anticancéreux dans l’organisme, sont des facteurs pouvant expliquer des phénomènes de résistance. Notre but était d’évaluer l’impact des isoenzymes du CYP450s, dans le métabolisme local des agents anticancéreux. Notre premier objectif était de valider un gène rapporteur pour nos analyses de PCR en temps réel. Pour ce faire, nous avons criblé l’expression de 6 gènes rapporteurs dans 23 lignées cellulaires. NUP-214 a été démontré comme étant le gène rapporteur le plus stable avec un écart-type de seulement 0.55 Ct. Notre deuxième objectif était de déterminer le niveau d’expression des ARNm de 19 isoformes du CYP450 dans plusieurs lignées cellulaires du cancer du sein. Les ARNm des CYP450s ont démontré une très grande variabilité entre les lignées cellulaires. Les isoformes CYP1B1 et CYP2J2 démontrent l’expression la plus importante pour la majorité des lignées. Notre troisième objectif était d’évaluer la corrélation entre l’expression des isoformes des CYP450s et leur activité métabolique en utilisant les substrats spécifiques du CYP1B1 et 2J2, 7-éthoxyrésorufine et ébastine, respectivement. Une forte corrélation (r2=0.99) fut observée entre l’activité métabolique vis-à-vis l’ébastine et l’expression du CYP2J2. De même, le métabolisme du 7-éthoxyrésorufine était fortement corrélé (r2=0.98) avec l’expression du CYP1B1. En résumé, ces résultats suggèrent que le métabolisme local des agents anticancéreux pourrait significativement moduler le devenir des agents anticancéreux dans l’organisme, et pourrait être ainsi, une source de résistance. / Several types of cancer cells have shown an innate or accute resistance to anti-cancer agents which in turn causes a failure in treatment. This resistance has been suggested to be caused by the expression of membrane transporters in cancer cells, as well as inter-individual variability in metabolism. Our interest was to evaluate the implication of CYP450 enzymes in the local metabolism of cancer cells. Our first objective was to screen the expression level of six housekeeping genes (HKG) using 23 different cell lines to determine which gene was the most stable. We found that NUP-214 was the most stable HKG across the panel of cell lines tested, with a standard deviation of only 0.55 Ct. Our second objective was to determine the expression level of 19 CYP450 mRNA isoforms in various breast cancer cell lines by RT-PCR. The CYP450 mRNAs showed a large variability between the different cell lines analyzed, where CYP1B1 and 2J2 were strongly expressed in most cell lines. Our third objective was to determine if measurable metabolic activity was present and correlates with mRNA expression in these same breast cancer cell lines using the specific substrates 7-ethoxyresorufin and ebastine for CYP1B1 and 2J2 activities, respectively. The metabolism of 7-ethoxyresorufin showed an excellent correlation of 0.98 with CYP1B1 expression while ebastine demonstrates a strong correlation (r2=0.99) with 2J2 expression. Overall, these results suggest that local metabolism of anti-cancer agents could significantly affect drug disposition and be a source of chemoresistance. Cytochromes P450 Cancer du sein Résistance aux agents anticancéreux Métabolisme Variabilité interindividuelle Cytochrome P450 Breast cancer Chemotherapy resistance Drug metabolism Intersubject variability
18	Patched, une nouvelle cible thérapeutique pour le cancer de la corticosurrénale / Patched as a new target for adrenocortical carcinoma treatment Hasanovic, Anida 15 March 2018 (has links) Nous avons récemment démontré que le récepteur du morphogène Hedgehog, Patched, qui est exprimé dans de nombreux cancers, est un transporteur de multiples drogues qui contribue à la résistance des cellules cancéreuses à la chimiothérapie. Le criblage d'une banque de molécules nous a permis d'identifier deux molécules qui inhibent l'activité d'efflux de doxorubicine de Patched. Nous avons montré que ces molécules renforcent les effets cytotoxiques, proapoptotiques, antiprolifératifs et anticlonogéniques de la doxorubicine sur les cellules de cancer de la glande surrénale (surrénalome) qui expriment de façon endogène Patched. De plus, nous avons observé que l’ajout de la molécule P375 au traitement à la doxorubicine inhibe le développement des tumeurs chez des souris ayant reçu une xénogreffe de cellules de surrénalome de façon plus significative que la doxorubicine seule. Nos résultats suggèrent que l'utilisation d'un inhibiteur de l'activité d'efflux de drogues de Patched en association avec la doxorubicine est une option thérapeutique prometteuse pour le surrénalome, et très probablement pour d'autres cancers exprimant Patched. Nous avons découvert qu'une petite fraction seulement des cellules de la lignée de surrénalome exprime Patched au niveau de la membrane plasmique (cellules PM-Patched). Les cellules PM-Patched sont plus résistantes à la doxorubicine, et présentent une expression plus élevée de Patched mais aussi de la protéine ABCG2. ABCG2 étant un marqueur de cellules souches cancéreuses (CSC), nous pensons que les cellules PM-Patched pourraient être des CSC.D'autres expériences sont nécessaires pour valider cette hypothèse. / We recently demonstrated that the Hedgehog receptor Patched, which is expressed in many recurrent and metastatic cancers, is a multidrug transporter contributing to chemotherapy resistance. The screening of a chemical library allowed us identifying two molecules which inhibit the doxorubicin efflux activity of Patched. We showed that these molecules enhance the cytotoxic, proapoptotic, antiproliferative and anticlonogenic effects of doxorubicin on adrenocortical carcinoma (ACC) cells which endogenously express Patched. Moreover, we reported that the addition of the drug-like molecule P375 to doxorubicin treatment prevents the development of xenograft ACC tumours in mice much more significantly than the doxorubicin alone. Our results suggest that the use of an inhibitor of Patched drug efflux activity in combination with doxorubicin is a promising therapeutic option for ACC and most likely for other Patched-expressing cancers. We discovered that only a small fraction of the ACC cell line expressed Patched at the plasma membrane (PMPatched cells). We observed that these cells are more resistant to doxorubicin treatment than ACC cells that express Patched only in intracellular compartments. Moreover, we estimated that PMPatched cells have higher expression of Patched but also of ABCG2/BCRP proteins. Based on the fact ABCG2/BCRP is a cancer stem cell (CSC) marker and that Hedgehog signaling is involved in maintenance of CSC, we think that PM-Patched cells could be CSCs. More experiments are needed to confirm this hypothesis. Résistance à la chimiothérapie Patched Signalisation Hedgehog Transporteur de multiples drogues Cancer Surrénalome Chemotherapy resistance Patched Hedgehog receptor Patched drug efflux inhibitors Doxorubicin Drug efflux pump Cancer Adrenocortical carcinoma
19	Detekce povrchového fenotypu a chemosenzitivity buněk nádorů močového měchýře in vitro / Detection of surface phenotype and chemosensitivity in bladder carcinoma cells in vitro Šímová, Michaela January 2021 (has links) Tumor malignancies are the second leading cause of death worldwide. One of the reasons for the failure of oncological treatment are the uniformly set clinical guidelines, which neglect the effect of high intertumoral heterogeneity. The in vitro chemosensitivity and resistance (CSRA) assays allow for the stratification of patients prior to therapy. Therefore, the CSRA are a long-considered method for personalization of components of chemotherapy regime. Nevertheless, none of them is being routinely used in clinical practice. Certain chemotherapeutics used for their cytotoxic and cytostatic effect are also able to induce so-called immunogenic cell death (ICD) of tumor cells and activate an anti-tumor immune response. Monitoring of changes in the expression of molecules associated with the regulation of the innate immune system on the surface of dying tumor cells would enable to predict the patient's ability to respond to treatment involving modern immunotherapeutics. The feasibility of CSRA using flow cytometry and microscopy is critically evaluated in this thesis on a model of bladder cancer. Simultaneously, the correlation of the immunogenic phenotype of tumor cells and their sensitivity to selected chemotherapeutics is discussed.

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